/usr/include/gpiod.h

/*
 * This file is part of libgpiod.
 *
 * Copyright (C) 2017-2018 Bartosz Golaszewski <bartekgola@gmail.com>
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms of the GNU Lesser General Public License as published by
 * the Free Software Foundation; either version 2.1 of the License, or (at
 * your option) any later version.
 */

#ifndef __LIBGPIOD_GPIOD_H__
#define __LIBGPIOD_GPIOD_H__

#include <stdlib.h>
#include <stdbool.h>
#include <time.h>

#ifdef __cplusplus
extern "C" {
#endif

/**
 * @mainpage libgpiod public API
 *
 * This is the complete documentation of the public API made available to
 * users of libgpiod.
 *
 * <p>The public header is logically split into two high-level parts: the
 * simple API and the low-level API. The former allows users to easily
 * interact with the GPIOs in the system without dealing with the low-level
 * data structures and resource control. The latter gives the user much more
 * fine-grained control over the GPIO interface.
 *
 * <p>The low-level API is further logically split into several parts such
 * as: GPIO chip & line operators, iterators, GPIO events handling etc.
 *
 * <p>General note on error handling: all routines exported by libgpiod  set
 * errno to one of the error values defined in errno.h upon failure. The way
 * of notifying the caller that an error occurred varies between functions,
 * but in general a function that returns an int, returns -1 on error, while
 * a function returning a pointer bails out on error condition by returning
 * a NULL pointer.
 */

struct gpiod_chip;
struct gpiod_line;
struct gpiod_chip_iter;
struct gpiod_line_iter;

/**
 * @defgroup __common__ Common helper macros
 * @{
 *
 * Commonly used utility macros.
 */

/**
 * @brief Makes symbol visible.
 */
#define GPIOD_API		__attribute__((visibility("default")))

/**
 * @brief Marks a function argument or variable as potentially unused.
 */
#define GPIOD_UNUSED		__attribute__((unused))

/**
 * @brief Shift 1 by given offset.
 * @param nr Bit position.
 * @return 1 shifted by nr.
 */
#define GPIOD_BIT(nr)		(1UL << (nr))

/**
 * @}
 *
 * @defgroup __high_level__ High-level API
 * @{
 *
 * Simple high-level routines for straightforward GPIO manipulation without
 * the need to use the gpiod_* structures or to keep track of resources.
 */

/**
 * @brief Read current value from a single GPIO line.
 * @param device Name, path, number or label of the gpiochip.
 * @param offset Offset of the GPIO line.
 * @param active_low The active state of this line - true if low.
 * @param consumer Name of the consumer.
 * @return 0 or 1 (GPIO value) if the operation succeeds, -1 on error.
 */
int gpiod_ctxless_get_value(const char *device, unsigned int offset,
			    bool active_low, const char *consumer) GPIOD_API;

/**
 * @brief Read current values from a set of GPIO lines.
 * @param device Name, path, number or label of the gpiochip.
 * @param offsets Array of offsets of lines whose values should be read.
 * @param values Buffer in which the values will be stored.
 * @param num_lines Number of lines, must be > 0.
 * @param active_low The active state of the lines - true if low.
 * @param consumer Name of the consumer.
 * @return 0 if the operation succeeds, -1 on error.
 */
int gpiod_ctxless_get_value_multiple(const char *device,
				     const unsigned int *offsets, int *values,
				     unsigned int num_lines, bool active_low,
				     const char *consumer) GPIOD_API;

/**
 * @brief Simple set value callback signature.
 */
typedef void (*gpiod_ctxless_set_value_cb)(void *);

/**
 * @brief Set value of a single GPIO line.
 * @param device Name, path, number or label of the gpiochip.
 * @param offset The offset of the GPIO line.
 * @param value New value (0 or 1).
 * @param active_low The active state of this line - true if low.
 * @param consumer Name of the consumer.
 * @param cb Optional callback function that will be called right after setting
 *           the value. Users can use this, for example, to pause the execution
 *           after toggling a GPIO.
 * @param data Optional user data that will be passed to the callback function.
 * @return 0 if the operation succeeds, -1 on error.
 */
int gpiod_ctxless_set_value(const char *device, unsigned int offset, int value,
			    bool active_low, const char *consumer,
			    gpiod_ctxless_set_value_cb cb,
			    void *data) GPIOD_API;

/**
 * @brief Set values of multiple GPIO lines.
 * @param device Name, path, number or label of the gpiochip.
 * @param offsets Array of offsets of lines the values of which should be set.
 * @param values Array of integers containing new values.
 * @param num_lines Number of lines, must be > 0.
 * @param active_low The active state of the lines - true if low.
 * @param consumer Name of the consumer.
 * @param cb Optional callback function that will be called right after setting
 *           all values. Works the same as in ::gpiod_ctxless_set_value.
 * @param data Optional user data that will be passed to the callback function.
 * @return 0 if the operation succeeds, -1 on error.
 */
int gpiod_ctxless_set_value_multiple(const char *device,
				     const unsigned int *offsets,
				     const int *values, unsigned int num_lines,
				     bool active_low, const char *consumer,
				     gpiod_ctxless_set_value_cb cb,
				     void *data) GPIOD_API;

/**
 * @brief Event types that can be passed to the ctxless event callback.
 */
enum {
	GPIOD_CTXLESS_EVENT_CB_TIMEOUT,
	/**< Waiting for events timed out. */
	GPIOD_CTXLESS_EVENT_CB_RISING_EDGE,
	/**< Rising edge event occured. */
	GPIOD_CTXLESS_EVENT_CB_FALLING_EDGE,
	/**< Falling edge event occured. */
};

/**
 * @brief Return status values that the ctxless event callback can return.
 */
enum {
	GPIOD_CTXLESS_EVENT_CB_RET_ERR = -1,
	/**< Stop processing events and indicate an error. */
	GPIOD_CTXLESS_EVENT_CB_RET_OK = 0,
	/**< Continue processing events. */
	GPIOD_CTXLESS_EVENT_CB_RET_STOP = 1,
	/**< Stop processing events. */
};

/**
 * @brief Simple event callack signature.
 *
 * The callback function takes the following arguments: event type (int),
 * GPIO line offset (unsigned int), event timestamp (const struct timespec *)
 * and a pointer to user data (void *).
 *
 * This callback is called by the ctxless event loop functions for each GPIO
 * event. If the callback returns ::GPIOD_CTXLESS_EVENT_CB_RET_ERR, it should
 * also set errno.
 */
typedef int (*gpiod_ctxless_event_handle_cb)(int, unsigned int,
					     const struct timespec *, void *);

/**
 * @brief Return status values that the ctxless event poll callback can return.
 *
 * Positive value returned from the polling callback indicates the number of
 * events that occurred on the set of monitored lines.
 */
enum {
	GPIOD_CTXLESS_EVENT_POLL_RET_STOP = -2,
	/**< The event loop should stop processing events. */
	GPIOD_CTXLESS_EVENT_POLL_RET_ERR = -1,
	/**< Polling error occurred (the polling function should set errno). */
	GPIOD_CTXLESS_EVENT_POLL_RET_TIMEOUT = 0,
	/**< Poll timed out. */
};

/**
 * @brief Helper structure for the ctxless event loop poll callback.
 */
struct gpiod_ctxless_event_poll_fd {
	int fd;
	/**< File descriptor number. */
	bool event;
	/**< Indicates whether an event occurred on this file descriptor. */
};

/**
 * @brief Simple event poll callback signature.
 *
 * The poll callback function takes the following arguments: number of lines
 * (unsigned int), an array of file descriptors on which input events should
 * be monitored (struct gpiod_ctxless_event_poll_fd *), poll timeout
 * (const struct timespec *) and a pointer to user data (void *).
 *
 * The callback should poll for input events on the set of descriptors and
 * return an appropriate value that can be interpreted by the event loop
 * routine.
 */
typedef int (*gpiod_ctxless_event_poll_cb)(unsigned int,
				struct gpiod_ctxless_event_poll_fd *,
				const struct timespec *, void *);

/**
 * @brief Wait for events on a single GPIO line.
 * @param device Name, path, number or label of the gpiochip.
 * @param offset GPIO line offset to monitor.
 * @param active_low The active state of this line - true if low.
 * @param consumer Name of the consumer.
 * @param timeout Maximum wait time for each iteration.
 * @param poll_cb Callback function to call when waiting for events.
 * @param event_cb Callback function to call for each line event.
 * @param data User data passed to the callback.
 * @return 0 if no errors were encountered, -1 if an error occurred.
 * @note The way the ctxless event loop works is described in detail in
 *       ::gpiod_ctxless_event_loop_multiple - this is just a wrapper aound
 *       this routine which calls it for a single GPIO line.
 */
int gpiod_ctxless_event_loop(const char *device, unsigned int offset,
			     bool active_low, const char *consumer,
			     const struct timespec *timeout,
			     gpiod_ctxless_event_poll_cb poll_cb,
			     gpiod_ctxless_event_handle_cb event_cb,
			     void *data) GPIOD_API;

/**
 * @brief Wait for events on multiple GPIO lines.
 * @param device Name, path, number or label of the gpiochip.
 * @param offsets Array of GPIO line offsets to monitor.
 * @param num_lines Number of lines to monitor.
 * @param active_low The active state of this line - true if low.
 * @param consumer Name of the consumer.
 * @param timeout Maximum wait time for each iteration.
 * @param poll_cb Callback function to call when waiting for events. Can
 *                be NULL.
 * @param event_cb Callback function to call on event occurrence.
 * @param data User data passed to the callback.
 * @return 0 no errors were encountered, -1 if an error occurred.
 * @note The poll callback can be NULL in which case the routine will fall
 *       back to a basic, ppoll() based callback.
 *
 * Internally this routine opens the GPIO chip, requests the set of lines for
 * both-edges events and calls the polling callback in a loop. The role of the
 * polling callback is to detect input events on a set of file descriptors and
 * notify the caller about the fds ready for reading.
 *
 * The ctxless event loop then reads each queued event from marked descriptors
 * and calls the event callback. Both callbacks can stop the loop at any
 * point.
 *
 * The poll_cb argument can be NULL in which case the function falls back to
 * a default, ppoll() based callback.
 */
int gpiod_ctxless_event_loop_multiple(const char *device,
				      const unsigned int *offsets,
				      unsigned int num_lines, bool active_low,
				      const char *consumer,
				      const struct timespec *timeout,
				      gpiod_ctxless_event_poll_cb poll_cb,
				      gpiod_ctxless_event_handle_cb event_cb,
				      void *data) GPIOD_API;

/**
 * @brief Determine the chip name and line offset of a line with given name.
 * @param name The name of the GPIO line to lookup.
 * @param chipname Buffer in which the name of the GPIO chip will be stored.
 * @param chipname_size Size of the chip name buffer.
 * @param offset Pointer to an integer in which the line offset will be stored.
 * @return -1 on error, 0 if the line with given name doesn't exist and 1 if
 *         the line was found. In the first two cases the contents of chipname
 *         and offset remain unchanged.
 * @note The chip name is truncated if the buffer can't hold its entire size.
 */
int gpiod_ctxless_find_line(const char *name, char *chipname,
			    size_t chipname_size,
			    unsigned int *offset) GPIOD_API;

/**
 * @}
 *
 * @defgroup __chips__ GPIO chip operations
 * @{
 *
 * Functions and data structures dealing with GPIO chips.
 */

/**
 * @brief Open a gpiochip by path.
 * @param path Path to the gpiochip device file.
 * @return GPIO chip handle or NULL if an error occurred.
 */
struct gpiod_chip *gpiod_chip_open(const char *path) GPIOD_API;

/**
 * @brief Open a gpiochip by name.
 * @param name Name of the gpiochip to open.
 * @return GPIO chip handle or NULL if an error occurred.
 *
 * This routine appends name to '/dev/' to create the path.
 */
struct gpiod_chip *gpiod_chip_open_by_name(const char *name) GPIOD_API;

/**
 * @brief Open a gpiochip by number.
 * @param num Number of the gpiochip.
 * @return GPIO chip handle or NULL if an error occurred.
 *
 * This routine appends num to '/dev/gpiochip' to create the path.
 */
struct gpiod_chip *gpiod_chip_open_by_number(unsigned int num) GPIOD_API;

/**
 * @brief Open a gpiochip by label.
 * @param label Label of the gpiochip to open.
 * @return GPIO chip handle or NULL if the chip with given label was not found
 *         or an error occured.
 * @note If the chip cannot be found but no other error occurred, errno is set
 *       to ENOENT.
 */
struct gpiod_chip *gpiod_chip_open_by_label(const char *label) GPIOD_API;

/**
 * @brief Open a gpiochip based on the best guess what the path is.
 * @param descr String describing the gpiochip.
 * @return GPIO chip handle or NULL if an error occurred.
 *
 * This routine tries to figure out whether the user passed it the path to the
 * GPIO chip, its name, label or number as a string. Then it tries to open it
 * using one of the gpiod_chip_open** variants.
 */
struct gpiod_chip *gpiod_chip_open_lookup(const char *descr) GPIOD_API;

/**
 * @brief Close a GPIO chip handle and release all allocated resources.
 * @param chip The GPIO chip object.
 */
void gpiod_chip_close(struct gpiod_chip *chip) GPIOD_API;

/**
 * @brief Get the GPIO chip name as represented in the kernel.
 * @param chip The GPIO chip object.
 * @return Pointer to a human-readable string containing the chip name.
 */
const char *gpiod_chip_name(struct gpiod_chip *chip) GPIOD_API;

/**
 * @brief Get the GPIO chip label as represented in the kernel.
 * @param chip The GPIO chip object.
 * @return Pointer to a human-readable string containing the chip label.
 */
const char *gpiod_chip_label(struct gpiod_chip *chip) GPIOD_API;

/**
 * @brief Get the number of GPIO lines exposed by this chip.
 * @param chip The GPIO chip object.
 * @return Number of GPIO lines.
 */
unsigned int gpiod_chip_num_lines(struct gpiod_chip *chip) GPIOD_API;

/**
 * @brief Get the handle to the GPIO line at given offset.
 * @param chip The GPIO chip object.
 * @param offset The offset of the GPIO line.
 * @return Pointer to the GPIO line handle or NULL if an error occured.
 */
struct gpiod_line *
gpiod_chip_get_line(struct gpiod_chip *chip, unsigned int offset) GPIOD_API;

/**
 * @brief Find a GPIO line by name among lines associated with given GPIO chip.
 * @param chip The GPIO chip object.
 * @param name The name of the GPIO line.
 * @return Pointer to the GPIO line handle or NULL if the line could not be
 *         found or an error occurred.
 * @note In case a line with given name is not associated with given chip, the
 *       function sets errno to ENOENT.
 */
struct gpiod_line *
gpiod_chip_find_line(struct gpiod_chip *chip, const char *name) GPIOD_API;

/**
 * @}
 *
 * @defgroup __lines__ GPIO line operations
 * @{
 *
 * Functions and data structures dealing with GPIO lines.
 *
 * @defgroup __line_bulk__ Operating on multiple lines
 * @{
 */

/**
 * @brief Maximum number of GPIO lines that can be requested at once.
 */
#define GPIOD_LINE_BULK_MAX_LINES	64

/**
 * @brief Helper structure for storing a set of GPIO line objects.
 *
 * This structure is used in all operations involving sets of GPIO lines. If
 * a bulk object is being passed to a function while containing zero lines,
 * the result is undefined.
 */
struct gpiod_line_bulk {
	struct gpiod_line *lines[GPIOD_LINE_BULK_MAX_LINES];
	/**< Buffer for line pointers. */
	unsigned int num_lines;
	/**< Number of lines currently held in this structure. */
};

/**
 * @brief Static initializer for GPIO bulk objects.
 *
 * This macro simply sets the internally held number of lines to 0.
 */
#define GPIOD_LINE_BULK_INITIALIZER	{ { NULL }, 0 }

/**
 * @brief Initialize a GPIO bulk object.
 * @param bulk Line bulk object.
 *
 * This routine simply sets the internally held number of lines to 0.
 */
static inline void gpiod_line_bulk_init(struct gpiod_line_bulk *bulk)
{
	bulk->num_lines = 0;
}

/**
 * @brief Add a single line to a GPIO bulk object.
 * @param bulk Line bulk object.
 * @param line Line to add.
 */
static inline void gpiod_line_bulk_add(struct gpiod_line_bulk *bulk,
				       struct gpiod_line *line)
{
	bulk->lines[bulk->num_lines++] = line;
}

/**
 * @brief Retrieve the line handle from a line bulk object at given offset.
 * @param bulk Line bulk object.
 * @param offset Line offset.
 * @return Line handle at given offset.
 */
static inline struct gpiod_line *
gpiod_line_bulk_get_line(struct gpiod_line_bulk *bulk, unsigned int offset)
{
	return bulk->lines[offset];
}

/**
 * @brief Retrieve the number of GPIO lines held by this line bulk object.
 * @param bulk Line bulk object.
 * @return Number of lines held by this line bulk.
 */
static inline unsigned int
gpiod_line_bulk_num_lines(struct gpiod_line_bulk *bulk)
{
	return bulk->num_lines;
}

/**
 * @brief Iterate over all line handles held by a line bulk object.
 * @param bulk Line bulk object.
 * @param line GPIO line handle. On each iteration, the subsequent line handle
 *             is assigned to this pointer.
 * @param lineptr Pointer to a GPIO line handle used to store the loop state.
 */
#define gpiod_line_bulk_foreach_line(bulk, line, lineptr)		\
	for ((lineptr) = (bulk)->lines, (line) = *(lineptr);		\
	     (lineptr) <= (bulk)->lines + ((bulk)->num_lines - 1);	\
	     (lineptr)++, (line) = *(lineptr))

/**
 * @brief Iterate over all line handles held by a line bulk object (integer
 *        counter variant).
 * @param bulk Line bulk object.
 * @param line GPIO line handle. On each iteration, the subsequent line handle
 *             is assigned to this pointer.
 * @param offset An integer variable used to store the loop state.
 *
 * This is a variant of ::gpiod_line_bulk_foreach_line which uses an integer
 * variable (either signed or unsigned) to store the loop state. This offset
 * variable is guaranteed to correspond with the offset of the current line in
 * the bulk->lines array.
 */
#define gpiod_line_bulk_foreach_line_off(bulk, line, offset)		\
	for ((offset) = 0, (line) = (bulk)->lines[0];			\
	     (offset) < (bulk)->num_lines;				\
	     (offset)++, (line) = (bulk)->lines[(offset)])

/**
 * @}
 *
 * @defgroup __line_info__ Line info
 * @{
 */

/**
 * @brief Possible direction settings.
 */
enum {
	GPIOD_LINE_DIRECTION_INPUT,
	/**< Direction is input - we're reading the state of a GPIO line. */
	GPIOD_LINE_DIRECTION_OUTPUT,
	/**< Direction is output - we're driving the GPIO line. */
};

/**
 * @brief Possible active state settings.
 */
enum {
	GPIOD_LINE_ACTIVE_STATE_HIGH,
	/**< The active state of a GPIO is active-high. */
	GPIOD_LINE_ACTIVE_STATE_LOW,
	/**< The active state of a GPIO is active-low. */
};

/**
 * @brief Read the GPIO line offset.
 * @param line GPIO line object.
 * @return Line offset.
 */
unsigned int gpiod_line_offset(struct gpiod_line *line) GPIOD_API;

/**
 * @brief Read the GPIO line name.
 * @param line GPIO line object.
 * @return Name of the GPIO line as it is represented in the kernel. This
 *         routine returns a pointer to a null-terminated string or NULL if
 *         the line is unnamed.
 */
const char *gpiod_line_name(struct gpiod_line *line) GPIOD_API;

/**
 * @brief Read the GPIO line consumer name.
 * @param line GPIO line object.
 * @return Name of the GPIO consumer name as it is represented in the
 *         kernel. This routine returns a pointer to a null-terminated string
 *         or NULL if the line is not used.
 */
const char *gpiod_line_consumer(struct gpiod_line *line) GPIOD_API;

/**
 * @brief Read the GPIO line direction setting.
 * @param line GPIO line object.
 * @return Returns GPIOD_DIRECTION_INPUT or GPIOD_DIRECTION_OUTPUT.
 */
int gpiod_line_direction(struct gpiod_line *line) GPIOD_API;

/**
 * @brief Read the GPIO line active state setting.
 * @param line GPIO line object.
 * @return Returns GPIOD_ACTIVE_STATE_HIGH or GPIOD_ACTIVE_STATE_LOW.
 */
int gpiod_line_active_state(struct gpiod_line *line) GPIOD_API;

/**
 * @brief Check if the line is currently in use.
 * @param line GPIO line object.
 * @return True if the line is in use, false otherwise.
 *
 * The user space can't know exactly why a line is busy. It may have been
 * requested by another process or hogged by the kernel. It only matters that
 * the line is used and we can't request it.
 */
bool gpiod_line_is_used(struct gpiod_line *line) GPIOD_API;

/**
 * @brief Check if the line is an open-drain GPIO.
 * @param line GPIO line object.
 * @return True if the line is an open-drain GPIO, false otherwise.
 */
bool gpiod_line_is_open_drain(struct gpiod_line *line) GPIOD_API;

/**
 * @brief Check if the line is an open-source GPIO.
 * @param line GPIO line object.
 * @return True if the line is an open-source GPIO, false otherwise.
 */
bool gpiod_line_is_open_source(struct gpiod_line *line) GPIOD_API;

/**
 * @brief Re-read the line info.
 * @param line GPIO line object.
 * @return 0 is the operation succeeds. In case of an error this routine
 *         returns -1 and sets the last error number.
 *
 * The line info is initially retrieved from the kernel by
 * gpiod_chip_get_line(). Users can use this line to manually re-read the line
 * info.
 */
int gpiod_line_update(struct gpiod_line *line) GPIOD_API;

/**
 * @brief Check if the line info needs to be updated.
 * @param line GPIO line object.
 * @return Returns false if the line is up-to-date. True otherwise.
 *
 * The line is updated by calling gpiod_line_update() from within
 * gpiod_chip_get_line() and on every line request/release. However: an error
 * returned from gpiod_line_update() only breaks the execution of the former.
 * The request/release routines only set the internal up-to-date flag to false
 * and continue their execution. This routine allows to check if a line info
 * update failed at some point and we should call gpiod_line_update()
 * explicitly.
 */
bool gpiod_line_needs_update(struct gpiod_line *line) GPIOD_API;

/**
 * @}
 *
 * @defgroup __line_request__ Line requests
 * @{
 */

/**
 * @brief Available types of requests.
 */
enum {
	GPIOD_LINE_REQUEST_DIRECTION_AS_IS,
	/**< Request the line(s), but don't change current direction. */
	GPIOD_LINE_REQUEST_DIRECTION_INPUT,
	/**< Request the line(s) for reading the GPIO line state. */
	GPIOD_LINE_REQUEST_DIRECTION_OUTPUT,
	/**< Request the line(s) for setting the GPIO line state. */
	GPIOD_LINE_REQUEST_EVENT_FALLING_EDGE,
	/**< Monitor both types of events. */
	GPIOD_LINE_REQUEST_EVENT_RISING_EDGE,
	/**< Only watch rising edge events. */
	GPIOD_LINE_REQUEST_EVENT_BOTH_EDGES,
	/**< Only watch falling edge events. */
};

/**
 * @brief Miscellaneous GPIO request flags.
 */
enum {
	GPIOD_LINE_REQUEST_FLAG_OPEN_DRAIN	= GPIOD_BIT(0),
	/**< The line is an open-drain port. */
	GPIOD_LINE_REQUEST_FLAG_OPEN_SOURCE	= GPIOD_BIT(1),
	/**< The line is an open-source port. */
	GPIOD_LINE_REQUEST_FLAG_ACTIVE_LOW	= GPIOD_BIT(2),
	/**< The active state of the line is low (high is the default). */
};

/**
 * @brief Structure holding configuration of a line request.
 */
struct gpiod_line_request_config {
	const char *consumer;
	/**< Name of the consumer. */
	int request_type;
	/**< Request type. */
	int flags;
	/**< Other configuration flags. */
};

/**
 * @brief Reserve a single line.
 * @param line GPIO line object.
 * @param config Request options.
 * @param default_val Initial line value - only relevant if we're setting
 *                    the direction to output.
 * @return 0 if the line was properly reserved. In case of an error this
 *         routine returns -1 and sets the last error number.
 *
 * If this routine succeeds, the caller takes ownership of the GPIO line until
 * it's released.
 */
int gpiod_line_request(struct gpiod_line *line,
		       const struct gpiod_line_request_config *config,
		       int default_val) GPIOD_API;

/**
 * @brief Reserve a single line, set the direction to input.
 * @param line GPIO line object.
 * @param consumer Name of the consumer.
 * @return 0 if the line was properly reserved, -1 on failure.
 */
int gpiod_line_request_input(struct gpiod_line *line,
			     const char *consumer) GPIOD_API;

/**
 * @brief Reserve a single line, set the direction to output.
 * @param line GPIO line object.
 * @param consumer Name of the consumer.
 * @param default_val Initial line value.
 * @return 0 if the line was properly reserved, -1 on failure.
 */
int gpiod_line_request_output(struct gpiod_line *line,
			      const char *consumer, int default_val) GPIOD_API;

/**
 * @brief Request rising edge event notifications on a single line.
 * @param line GPIO line object.
 * @param consumer Name of the consumer.
 * @return 0 if the operation succeeds, -1 on failure.
 */
int gpiod_line_request_rising_edge_events(struct gpiod_line *line,
					  const char *consumer) GPIOD_API;

/**
 * @brief Request falling edge event notifications on a single line.
 * @param line GPIO line object.
 * @param consumer Name of the consumer.
 * @return 0 if the operation succeeds, -1 on failure.
 */
int gpiod_line_request_falling_edge_events(struct gpiod_line *line,
					   const char *consumer) GPIOD_API;

/**
 * @brief Request all event type notifications on a single line.
 * @param line GPIO line object.
 * @param consumer Name of the consumer.
 * @return 0 if the operation succeeds, -1 on failure.
 */
int gpiod_line_request_both_edges_events(struct gpiod_line *line,
					 const char *consumer) GPIOD_API;

/**
 * @brief Reserve a single line, set the direction to input.
 * @param line GPIO line object.
 * @param consumer Name of the consumer.
 * @param flags Additional request flags.
 * @return 0 if the line was properly reserved, -1 on failure.
 */
int gpiod_line_request_input_flags(struct gpiod_line *line,
				   const char *consumer, int flags) GPIOD_API;

/**
 * @brief Reserve a single line, set the direction to output.
 * @param line GPIO line object.
 * @param consumer Name of the consumer.
 * @param flags Additional request flags.
 * @param default_val Initial line value.
 * @return 0 if the line was properly reserved, -1 on failure.
 */
int gpiod_line_request_output_flags(struct gpiod_line *line,
				    const char *consumer, int flags,
				    int default_val) GPIOD_API;

/**
 * @brief Request rising edge event notifications on a single line.
 * @param line GPIO line object.
 * @param consumer Name of the consumer.
 * @param flags Additional request flags.
 * @return 0 if the operation succeeds, -1 on failure.
 */
int gpiod_line_request_rising_edge_events_flags(struct gpiod_line *line,
						const char *consumer,
						int flags) GPIOD_API;

/**
 * @brief Request falling edge event notifications on a single line.
 * @param line GPIO line object.
 * @param consumer Name of the consumer.
 * @param flags Additional request flags.
 * @return 0 if the operation succeeds, -1 on failure.
 */
int gpiod_line_request_falling_edge_events_flags(struct gpiod_line *line,
						 const char *consumer,
						 int flags) GPIOD_API;

/**
 * @brief Request all event type notifications on a single line.
 * @param line GPIO line object.
 * @param consumer Name of the consumer.
 * @param flags Additional request flags.
 * @return 0 if the operation succeeds, -1 on failure.
 */
int gpiod_line_request_both_edges_events_flags(struct gpiod_line *line,
					       const char *consumer,
					       int flags) GPIOD_API;

/**
 * @brief Reserve a set of GPIO lines.
 * @param bulk Set of GPIO lines to reserve.
 * @param config Request options.
 * @param default_vals Initial line values - only relevant if we're setting
 *                     the direction to output.
 * @return 0 if the all lines were properly requested. In case of an error
 *         this routine returns -1 and sets the last error number.
 *
 * If this routine succeeds, the caller takes ownership of the GPIO lines
 * until they're released. All the requested lines must be prodivided by the
 * same gpiochip.
 */
int gpiod_line_request_bulk(struct gpiod_line_bulk *bulk,
			    const struct gpiod_line_request_config *config,
			    const int *default_vals) GPIOD_API;

/**
 * @brief Reserve a set of GPIO lines, set the direction to input.
 * @param bulk Set of GPIO lines to reserve.
 * @param consumer Name of the consumer.
 * @return 0 if the lines were properly reserved, -1 on failure.
 */
int gpiod_line_request_bulk_input(struct gpiod_line_bulk *bulk,
				  const char *consumer) GPIOD_API;

/**
 * @brief Reserve a set of GPIO lines, set the direction to output.
 * @param bulk Set of GPIO lines to reserve.
 * @param consumer Name of the consumer.
 * @param default_vals Initial line values.
 * @return 0 if the lines were properly reserved, -1 on failure.
 */
int gpiod_line_request_bulk_output(struct gpiod_line_bulk *bulk,
				   const char *consumer,
				   const int *default_vals) GPIOD_API;

/**
 * @brief Request rising edge event notifications on a set of lines.
 * @param bulk Set of GPIO lines to request.
 * @param consumer Name of the consumer.
 * @return 0 if the operation succeeds, -1 on failure.
 */
int gpiod_line_request_bulk_rising_edge_events(struct gpiod_line_bulk *bulk,
					       const char *consumer) GPIOD_API;

/**
 * @brief Request falling edge event notifications on a set of lines.
 * @param bulk Set of GPIO lines to request.
 * @param consumer Name of the consumer.
 * @return 0 if the operation succeeds, -1 on failure.
 */
int gpiod_line_request_bulk_falling_edge_events(struct gpiod_line_bulk *bulk,
						const char *consumer) GPIOD_API;

/**
 * @brief Request all event type notifications on a set of lines.
 * @param bulk Set of GPIO lines to request.
 * @param consumer Name of the consumer.
 * @return 0 if the operation succeeds, -1 on failure.
 */
int gpiod_line_request_bulk_both_edges_events(struct gpiod_line_bulk *bulk,
					      const char *consumer) GPIOD_API;

/**
 * @brief Reserve a set of GPIO lines, set the direction to input.
 * @param bulk Set of GPIO lines to reserve.
 * @param consumer Name of the consumer.
 * @param flags Additional request flags.
 * @return 0 if the lines were properly reserved, -1 on failure.
 */
int gpiod_line_request_bulk_input_flags(struct gpiod_line_bulk *bulk,
					const char *consumer,
					int flags) GPIOD_API;

/**
 * @brief Reserve a set of GPIO lines, set the direction to output.
 * @param bulk Set of GPIO lines to reserve.
 * @param consumer Name of the consumer.
 * @param flags Additional request flags.
 * @param default_vals Initial line values.
 * @return 0 if the lines were properly reserved, -1 on failure.
 */
int gpiod_line_request_bulk_output_flags(struct gpiod_line_bulk *bulk,
					 const char *consumer, int flags,
					 const int *default_vals) GPIOD_API;

/**
 * @brief Request rising edge event notifications on a set of lines.
 * @param bulk Set of GPIO lines to request.
 * @param consumer Name of the consumer.
 * @param flags Additional request flags.
 * @return 0 if the operation succeeds, -1 on failure.
 */
int gpiod_line_request_bulk_rising_edge_events_flags(
					struct gpiod_line_bulk *bulk,
					const char *consumer,
					int flags) GPIOD_API;

/**
 * @brief Request falling edge event notifications on a set of lines.
 * @param bulk Set of GPIO lines to request.
 * @param consumer Name of the consumer.
 * @param flags Additional request flags.
 * @return 0 if the operation succeeds, -1 on failure.
 */
int gpiod_line_request_bulk_falling_edge_events_flags(
					struct gpiod_line_bulk *bulk,
					const char *consumer,
					int flags) GPIOD_API;

/**
 * @brief Request all event type notifications on a set of lines.
 * @param bulk Set of GPIO lines to request.
 * @param consumer Name of the consumer.
 * @param flags Additional request flags.
 * @return 0 if the operation succeeds, -1 on failure.
 */
int gpiod_line_request_bulk_both_edges_events_flags(
					struct gpiod_line_bulk *bulk,
					const char *consumer,
					int flags) GPIOD_API;

/**
 * @brief Release a previously reserved line.
 * @param line GPIO line object.
 */
void gpiod_line_release(struct gpiod_line *line) GPIOD_API;

/**
 * @brief Release a set of previously reserved lines.
 * @param bulk Set of GPIO lines to release.
 *
 * If the lines were not previously requested together, the behavior is
 * undefined.
 */
void gpiod_line_release_bulk(struct gpiod_line_bulk *bulk) GPIOD_API;

/**
 * @brief Check if the calling user has ownership of this line.
 * @param line GPIO line object.
 * @return True if given line was requested, false otherwise.
 */
bool gpiod_line_is_requested(struct gpiod_line *line) GPIOD_API;

/**
 * @brief Check if the calling user has neither requested ownership of this
 *        line nor configured any event notifications.
 * @param line GPIO line object.
 * @return True if given line is free, false otherwise.
 */
bool gpiod_line_is_free(struct gpiod_line *line) GPIOD_API;

/**
 * @}
 *
 * @defgroup __line_value__ Reading & setting line values
 * @{
 */

/**
 * @brief Read current value of a single GPIO line.
 * @param line GPIO line object.
 * @return 0 or 1 if the operation succeeds. On error this routine returns -1
 *         and sets the last error number.
 */
int gpiod_line_get_value(struct gpiod_line *line) GPIOD_API;

/**
 * @brief Read current values of a set of GPIO lines.
 * @param bulk Set of GPIO lines to reserve.
 * @param values An array big enough to hold line_bulk->num_lines values.
 * @return 0 is the operation succeeds. In case of an error this routine
 *         returns -1 and sets the last error number.
 *
 * If succeeds, this routine fills the values array with a set of values in
 * the same order, the lines are added to line_bulk. If the lines were not
 * previously requested together, the behavior is undefined.
 */
int gpiod_line_get_value_bulk(struct gpiod_line_bulk *bulk,
			      int *values) GPIOD_API;

/**
 * @brief Set the value of a single GPIO line.
 * @param line GPIO line object.
 * @param value New value.
 * @return 0 is the operation succeeds. In case of an error this routine
 *         returns -1 and sets the last error number.
 */
int gpiod_line_set_value(struct gpiod_line *line, int value) GPIOD_API;

/**
 * @brief Set the values of a set of GPIO lines.
 * @param bulk Set of GPIO lines to reserve.
 * @param values An array holding line_bulk->num_lines new values for lines.
 * @return 0 is the operation succeeds. In case of an error this routine
 *         returns -1 and sets the last error number.
 *
 * If the lines were not previously requested together, the behavior is
 * undefined.
 */
int gpiod_line_set_value_bulk(struct gpiod_line_bulk *bulk,
			      const int *values) GPIOD_API;

/**
 * @}
 *
 * @defgroup __line_event__ Line events handling
 * @{
 */

/**
 * @brief Event types.
 */
enum {
	GPIOD_LINE_EVENT_RISING_EDGE,
	/**< Rising edge event. */
	GPIOD_LINE_EVENT_FALLING_EDGE,
	/**< Falling edge event. */
};

/**
 * @brief Structure holding event info.
 */
struct gpiod_line_event {
	struct timespec ts;
	/**< Best estimate of time of event occurrence. */
	int event_type;
	/**< Type of the event that occurred. */
};

/**
 * @brief Wait for an event on a single line.
 * @param line GPIO line object.
 * @param timeout Wait time limit.
 * @return 0 if wait timed out, -1 if an error occurred, 1 if an event
 *         occurred.
 */
int gpiod_line_event_wait(struct gpiod_line *line,
			  const struct timespec *timeout) GPIOD_API;

/**
 * @brief Wait for events on a set of lines.
 * @param bulk Set of GPIO lines to monitor.
 * @param timeout Wait time limit.
 * @param event_bulk Bulk object in which to store the line handles on which
 *                   events occurred. Can be NULL.
 * @return 0 if wait timed out, -1 if an error occurred, 1 if at least one
 *         event occurred.
 */
int gpiod_line_event_wait_bulk(struct gpiod_line_bulk *bulk,
			       const struct timespec *timeout,
			       struct gpiod_line_bulk *event_bulk) GPIOD_API;

/**
 * @brief Read the last event from the GPIO line.
 * @param line GPIO line object.
 * @param event Buffer to which the event data will be copied.
 * @return 0 if the event was read correctly, -1 on error.
 * @note This function will block if no event was queued for this line.
 */
int gpiod_line_event_read(struct gpiod_line *line,
			  struct gpiod_line_event *event) GPIOD_API;

/**
 * @brief Get the event file descriptor.
 * @param line GPIO line object.
 * @return Number of the event file descriptor or -1 if the user tries to
 *         retrieve the descriptor from a line that wasn't configured for
 *         event monitoring.
 *
 * Users may want to poll the event file descriptor on their own. This routine
 * allows to access it.
 */
int gpiod_line_event_get_fd(struct gpiod_line *line) GPIOD_API;

/**
 * @brief Read the last GPIO event directly from a file descriptor.
 * @param fd File descriptor.
 * @param event Buffer in which the event data will be stored.
 * @return 0 if the event was read correctly, -1 on error.
 *
 * Users who directly poll the file descriptor for incoming events can also
 * directly read the event data from it using this routine. This function
 * translates the kernel representation of the event to the libgpiod format.
 */
int gpiod_line_event_read_fd(int fd, struct gpiod_line_event *event) GPIOD_API;

/**
 * @}
 *
 * @defgroup __line_misc__ Misc line functions
 * @{
 */

/**
 * @brief Get a GPIO line handle by GPIO chip description and offset.
 * @param device String describing the gpiochip.
 * @param offset The offset of the GPIO line.
 * @return GPIO line handle or NULL if an error occurred.
 *
 * This routine provides a shorter alternative to calling
 * ::gpiod_chip_open_lookup and ::gpiod_chip_get_line.
 *
 * If this function succeeds, the caller is responsible for closing the
 * associated GPIO chip.
 */
struct gpiod_line *
gpiod_line_get(const char *device, unsigned int offset) GPIOD_API;

/**
 * @brief Find a GPIO line by its name.
 * @param name Name of the GPIO line.
 * @return Returns the GPIO line handle if the line exists in the system or
 *         NULL if it couldn't be located or an error occurred.
 *
 * If this routine succeeds, the user must manually close the GPIO chip owning
 * this line to avoid memory leaks. If the line could not be found, this
 * functions sets errno to ENOENT.
 */
struct gpiod_line *gpiod_line_find(const char *name) GPIOD_API;

/**
 * @brief Close a GPIO chip owning this line and release all resources.
 * @param line GPIO line object
 *
 * After this function returns, the line must no longer be used.
 */
void gpiod_line_close_chip(struct gpiod_line *line) GPIOD_API;

/**
 * @brief Get the handle to the GPIO chip controlling this line.
 * @param line The GPIO line object.
 * @return Pointer to the GPIO chip handle controlling this line.
 */
struct gpiod_chip *gpiod_line_get_chip(struct gpiod_line *line) GPIOD_API;

/**
 * @}
 *
 * @}
 *
 * @defgroup __iterators__ Iterators for GPIO chips and lines
 * @{
 *
 * These functions and data structures allow easy iterating over GPIO
 * chips and lines.
 */

/**
 * @brief Create a new gpiochip iterator.
 * @return Pointer to a new chip iterator object or NULL if an error occurred.
 *
 * Internally this routine scans the /dev/ directory for GPIO chip device
 * files, opens them and stores their the handles until ::gpiod_chip_iter_free
 * or ::gpiod_chip_iter_free_noclose is called.
 */
struct gpiod_chip_iter *gpiod_chip_iter_new(void) GPIOD_API;

/**
 * @brief Release all resources allocated for the gpiochip iterator and close
 *        the most recently opened gpiochip (if any).
 * @param iter The gpiochip iterator object.
 */
void gpiod_chip_iter_free(struct gpiod_chip_iter *iter) GPIOD_API;

/**
 * @brief Release all resources allocated for the gpiochip iterator but
 *        don't close the most recently opened gpiochip (if any).
 * @param iter The gpiochip iterator object.
 *
 * Users may want to break the loop when iterating over gpiochips and keep
 * the most recently opened chip active while freeing the iterator data.
 * This routine enables that.
 */
void gpiod_chip_iter_free_noclose(struct gpiod_chip_iter *iter) GPIOD_API;

/**
 * @brief Get the next gpiochip handle.
 * @param iter The gpiochip iterator object.
 * @return Pointer to the next open gpiochip handle or NULL if no more chips
 *         are present in the system.
 * @note The previous chip handle will be closed using ::gpiod_chip_iter_free.
 */
struct gpiod_chip *
gpiod_chip_iter_next(struct gpiod_chip_iter *iter) GPIOD_API;

/**
 * @brief Get the next gpiochip handle without closing the previous one.
 * @param iter The gpiochip iterator object.
 * @return Pointer to the next open gpiochip handle or NULL if no more chips
 *         are present in the system.
 * @note This function works just like ::gpiod_chip_iter_next but doesn't
 *       close the most recently opened chip handle.
 */
struct gpiod_chip *
gpiod_chip_iter_next_noclose(struct gpiod_chip_iter *iter) GPIOD_API;

/**
 * @brief Iterate over all GPIO chips present in the system.
 * @param iter An initialized GPIO chip iterator.
 * @param chip Pointer to a GPIO chip handle. On each iteration the newly
 *             opened chip handle is assigned to this argument.
 *
 * The user must not close the GPIO chip manually - instead the previous chip
 * handle is closed automatically on the next iteration. The last chip to be
 * opened is closed internally by ::gpiod_chip_iter_free.
 */
#define gpiod_foreach_chip(iter, chip)					\
	for ((chip) = gpiod_chip_iter_next(iter);			\
	     (chip);							\
	     (chip) = gpiod_chip_iter_next(iter))

/**
 * @brief Iterate over all chips present in the system without closing them.
 * @param iter An initialized GPIO chip iterator.
 * @param chip Pointer to a GPIO chip handle. On each iteration the newly
 *             opened chip handle is assigned to this argument.
 *
 * The user must close all the GPIO chips manually after use, until then, the
 * chips remain open. Free the iterator by calling
 * ::gpiod_chip_iter_free_noclose to avoid closing the last chip automatically.
 */
#define gpiod_foreach_chip_noclose(iter, chip)				\
	for ((chip) = gpiod_chip_iter_next_noclose(iter);		\
	     (chip);							\
	     (chip) = gpiod_chip_iter_next_noclose(iter))

/**
 * @brief Create a new line iterator.
 * @param chip Active gpiochip handle over the lines of which we want
 *             to iterate.
 * @return New line iterator or NULL if an error occurred.
 */
struct gpiod_line_iter *
gpiod_line_iter_new(struct gpiod_chip *chip) GPIOD_API;

/**
 * @brief Free all resources associated with a GPIO line iterator.
 * @param iter Line iterator object.
 */
void gpiod_line_iter_free(struct gpiod_line_iter *iter) GPIOD_API;

/**
 * @brief Get the next GPIO line handle.
 * @param iter The GPIO line iterator object.
 * @return Pointer to the next GPIO line handle or NULL if there are no more
 *         lines left.
 */
struct gpiod_line *
gpiod_line_iter_next(struct gpiod_line_iter *iter) GPIOD_API;

/**
 * @brief Iterate over all GPIO lines of a single chip.
 * @param iter An initialized GPIO line iterator.
 * @param line Pointer to a GPIO line handle - on each iteration, the
 *             next GPIO line will be assigned to this argument.
 */
#define gpiod_foreach_line(iter, line)					\
	for ((line) = gpiod_line_iter_next(iter);			\
	     (line);							\
	     (line) = gpiod_line_iter_next(iter))

/**
 * @}
 *
 * @defgroup __misc__ Stuff that didn't fit anywhere else
 * @{
 *
 * Various libgpiod-related functions.
 */

/**
 * @brief Get the version of the library as a human-readable string.
 * @return Human-readable string containing the library version.
 */
const char *gpiod_version_string(void) GPIOD_API;

/**
 * @}
 */

#ifdef __cplusplus
} /* extern "C" */
#endif

#endif /* __LIBGPIOD_GPIOD_H__ */
libgpiod-dev 1.0-1 / usr / include / gpiod.h
